CN114545763A - Timing display method and system - Google Patents

Abstract

The invention discloses a timing display method and a system, comprising a timing display component and a control component; the timing display assembly is composed of at least one layer of annular dial plates, each layer of dial plate indicates different time measurement, each layer of dial plate displays time modulus containing a preset number of preset time modes, and the time modulus of each layer of dial plate is divided into a preset number of time units through scales; the control assembly comprises a time control unit and an event control unit for presenting events occurring, having occurred and about to occur within a certain time vector, identified by event periods, and attributes, significances, representing the events by stretching and compressing of the event periods, and attributes representing the events. By adopting the technical scheme, the user can intuitively acquire the current moment, and can set various events and attributes thereof according to needs, so that the efficiency is improved, the people life is enriched, and the user personality is revealed.

Description

Timing display method and system

Technical Field

The invention relates to the technical field of computers, in particular to a timing display method and a timing display system.

Background

At present, with the rapid development of the electronic industry, time display modes are more and more, from traditional mechanical clocks and watches, to electronic clocks and watches, to digital display clocks and watches, to smart watches, and so on, which can be called as various designs, smart phones are already in common use in the world, smart watches of various design styles are coming across many, products are also beginning to increase functions in mobile aspects, such as watches which can only be used for watching time in the past, and nowadays, smart phones or home networks can also be connected with the internet to display contents of incoming calls, information, news, weather information, and the like, so that the telephone, short messages, mails, photos, music, and the like in synchronous mobile phones greatly enrich people' lives.

However, these time display devices such as timepieces generally indicate time and digitally indicate time by hands, and hands rotate cyclically, which is constant for hundreds of years, and does not break through, monotonous, and limit imagination.

Therefore, it is desirable to obtain a new time display device or method that satisfies the new user's feeling of time display and event setting.

Disclosure of Invention

The invention provides a timing display system, which comprises a timing display component and a control component, wherein the timing display component comprises a timing display module and a timing display module;

the timing display assembly is composed of a plurality of layers of nested annular closed dials, each layer of dial indicates different time measurement, each layer of dial displays a time modulus containing a preset number of preset time patterns, and the time modulus of each layer of dial is divided into a preset number of time units through scales; distinguishable graphic marks in different shapes are arranged in each timing modulus, and the graphic marks are arranged in different display modes according to the modulus attributes of different dials and flow along the dials along the lapse of time;

the control assembly comprises a time control unit and an event control unit; the time control unit is used for presenting the initial state of the timing display component when the control component program is started, displaying the multistage time modulus containing different preset number and different stage time units by utilizing at least one layer of dial plate, and representing the time lapse by delaying the time vector flow through different graphic marks in different time moduli; the event control unit is used for presenting the presentation state of the corresponding event of the timing display component according to the system preset program trigger or the man-machine interaction trigger after receiving the system preset program trigger or the man-machine interaction trigger, wherein the presentation state comprises the event which is occurring, has occurred and is about to occur and the attribute representing the event, the event which is occurring, has occurred and is about to occur in a certain time vector is marked by an event time interval, and the attribute and the meaning representing the event are expressed by the stretching and the compression of the event time interval.

The timing display system as described above, wherein each dial time vector of the timing display component is used to represent one or more tangible or intangible reference lines of time running direction, time period total amount and time period component, the time vector includes year time vector, month time vector, week time vector, day time vector, hour time vector, second time vector or other self-defined time vectors, the time vectors are coincident or non-coincident, and a plurality of dials are selected from the above multiple modes to perform multi-layer dial nesting arrangement according to requirements.

The timing display system as described above, wherein the graphic indicator has different display modes according to different dial modulus attributes, the variation along the dial varies in the time vector direction by taking the time scale as a unit to represent the current time and the lapse of the time, the graphic indicator is composed of a static or dynamic picture or visual element with a certain shape and the display content thereof, and the current time and the progress degree of the event are identified by the relative position relationship between the time marker and the time scale.

A time display system as described above, wherein the image indicators are shifted in a clockwise or counterclockwise direction along the dial.

The timing display system as described above, wherein the time scale is used for identifying the movement variation of the time marker, and is used for representing time in combination with the time marker, the time scale includes year, month, day, week, hour, minute and second scales, and the scales are overlapped or not overlapped, and are also used for realizing compression and stretching of event time intervals by adjusting movement variation, combination and the like, and further representing different attribute meanings of time.

The timing display system as described above, wherein the time scale is a uniform scale or a non-uniform scale.

The timing display system as described above, wherein the event time interval is an individual time vector, the event time interval has any starting, ending and middle marks, the any starting, ending and middle marks have an adjusting function, the starting, ending and middle marks are moved to realize the highlighted representation of the compression and stretching of the event time interval, and the event time interval highlights the attribute of the identification event and the time vector in a way that the individual time vector deviates from the original time vector and is presented individually.

The timing display system as described above, wherein the event control unit specifically includes: the system comprises a system program trigger control module and a human-computer interaction trigger control module;

the system program trigger control module is used for automatically displaying a main event display panel of a plurality of preset events which are divided according to the time on the timing display component in advance when the program monitors that the current time enters the event display time; the human-computer interaction triggering control module is specifically used for: if the control component receives that the program user sets the main event on the timing display component by himself, the initial state is updated to the main event display panel on the timing display component; if the control component receives the setting of the sub-event on the display modulation interface by the program user, displaying a sub-event progress bar and sub-event attributes on the timing display component; if the control component receives the setting of the sub-event progress bar on the main event display panel by the program user, the stretching and the compression of the event time interval are displayed on the timing display component to represent the attribute and the meaning of the event; if the control component receives the click operation of the program user on the sub-event progress bar, the sub-event and the event element thereof are displayed independently; if the control component receives the synchronous scheduling operation of the program user on the event, the scheduled event is synchronized to other related persons or related devices.

The timing display system as described above, wherein when the control component monitors that the sub-event progress bar reaches a certain set point, the control component further comprises prompting the user through various prompting methods.

The timing display system as described above, wherein after the control component receives the reminding instruction sent by other related devices, the user is reminded in various reminding manners.

The timing display system as described above, wherein the control component further includes an event management module, configured to read the address book, establish a participant group according to the selected event participant to perform event organization and management, record and store event information, and dismiss the group after the event is ended.

The timing display system can be automatically started when a program carrier is started, or can be set to be in an APP form, the timing display system is started when a user clicks according to the needs of the user, the timing display component is displayed on a carrier interface after the program is started, and the control component is used as a program background to regulate and control the timing display component.

The invention also provides a timing display method, which comprises the following steps:

the control component program is started, the initial state of the timing display component is presented, the multistage time modulus containing different preset quantities of different stage time units is displayed by utilizing at least one layer of dial plate, and the time lapse is represented by different graphic identification delay time vector flows in different time moduli;

the control component receives system preset program triggering or man-machine interaction triggering, and presents the presentation state of the event corresponding to the timing display component according to the system preset program triggering or man-machine interaction triggering, wherein the presentation state comprises the events which are occurring, have occurred and are about to occur in a certain time vector and the attribute representing the event, the events which are occurring, have occurred and are about to occur in the certain time vector are marked by event time intervals, and the attribute representing the event and the meaning are expressed by stretching and compressing the event time intervals.

The timing display method comprises the steps that a program is divided into a plurality of preset events according to time on the timing display assembly in advance, and when the program monitors that the current time enters the event display time, a main event display panel is automatically displayed.

The timing display method as described above, wherein the triggering of the presentation state of the event corresponding to the timing display component according to the human-computer interaction specifically includes:

if the control component receives the main event setting of the program user on the timing display component, the initial state is updated to a main event display panel on the timing display component;

if the control component receives the setting of the sub-event on the display modulation interface by the program user, displaying a sub-event progress bar and the sub-event attribute on the timing display component;

if the control component receives the setting of the sub-event progress bar on the main event display panel by the program user, the stretching and the compression of the event time interval are displayed on the timing display component to express the attribute and the meaning of the event;

if the control component receives the click operation of the program user on the sub-event progress bar, the sub-event and the event element thereof are displayed independently;

if the control component receives the synchronous scheduling operation of the program user to the event, the scheduled event is synchronized to other related persons or related devices.

The invention has the following beneficial effects: by adopting the timing display method and the timing display system, a user can intuitively acquire the current moment, various events and attributes thereof can be set according to needs, the efficiency is improved, the life of people is enriched, and the personality of the user is revealed.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments described in the present invention, and other drawings can be obtained by those skilled in the art according to the drawings.

Fig. 1 is a schematic diagram of a timing display system according to an embodiment of the present invention;

FIG. 2 illustrates a first level rendering schematic of the timing display assembly disclosed herein;

FIG. 3 illustrates a two-level rendering schematic of the timing display assembly disclosed herein;

FIG. 4 illustrates a three-level rendering schematic of the timing display assembly disclosed herein;

FIG. 5 illustrates a four-level rendering schematic of the timing display assembly disclosed herein;

fig. 6 is a flowchart of a timing display method according to a second embodiment of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention are clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, not all, embodiments of the present invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

For a better understanding of the present disclosure by those of ordinary skill in the art, reference is made to the following detailed description taken in conjunction with the accompanying drawings.

Example one

The timing display system provided by the application can be arranged in electronic products such as mobile phones, computers, smart watches and the like without limitation, and fig. 1 is a schematic diagram of the timing display system, and specifically comprises a timing display component and a control component, wherein the control component is used for modulating time and/or events in the timing display component. The components are as follows:

(1) timing display assembly

FIG. 2 illustratively shows a first level rendering schematic of the timing display assembly disclosed herein. The timing display component is in a circular ring shape and is composed of at least one layer of annular closed dial, each layer of dial indicates different time measurement, and the number of the dial layers can be expanded according to actual needs. Each layer of dial plate displays the time modulus containing a preset number of time patterns, and the time modulus of each layer of dial plate is divided into a preset number of time units through scales, wherein the scales can be uniform scales or non-uniform scales and can be modified by a user. The time scale is used for identifying the movement variation of the time marker and is used for being combined with the time marker to represent time, the time scale comprises time, month, day, week, hour, minute and second scales, the scales are overlapped or not overlapped and are also used for realizing compression and stretching of event time intervals through adjustment of movement, variation, combination and the like, and further representing different attribute connotations of time. The graphic mark is composed of a static or dynamic picture (visual element) with a certain shape and the display content thereof, and the current time and the progress degree of the event are marked by the relative position relationship between the time marker and the time scale. For example, the first modulus attribute represents days in one month, optionally, the current date corresponding grid is set to be in a highlight state by different colors, and for example, the second modulus attribute represents hours, then, optionally, the image identifier in a specific shape is set to circulate along the direction of the second modulus dial, wherein the specific shape can be set by itself, and can be a dot shown in fig. 1, or can be any object, graph, simulation, animation, and the like, such as a heart, a star, an animal, a plant, a mechanical part, and the like, or can be used as the graph identifier of the present disclosure by changing the change scales of color, brightness, shape, length, and the like, which is not limited herein; in addition, the change mode, the moving route, the moving mode, the position of the reference mark, (the scale, the shape, the mutual relation and the whole and local parts of the display device can be filled by carrying out user independent selection in a pre-stored template and using auxiliary representation and rendering enhancement.

The time vectors of all dials of the timing display component are used for representing one or more tangible or intangible reference lines of the time running direction, the time period total quantity and the time period component, the time vectors comprise a year time vector, a month time vector, a week time vector, a day time vector, an hour time vector, a second time vector or other user-defined time vectors, all the time vectors are overlapped or not overlapped, a plurality of patterns can be selected from the patterns to carry out multilayer dial plate nesting arrangement according to needs, the relative position relation between the time marker and the time scale is used for marking the current time and the progress degree of an event, for example, the timing display component shown in figure 2, the outer layer time mode is the month time mode, the outer layer dial plate is evenly divided into 28 parts to represent four weeks, and for months with 29, 30 and 31, when the control component detects that the current month exceeds 28 days, automatically carrying out pushing display on 28 parts of the outer dial, for example, displaying 3-30 and 4-31, in addition, directly dividing the outer dial into 31 parts, and directly jumping to a numerical value 1 after the last day of a month for months which are short of 31 days is finished; the inner-layer time mode is a day time mode, the inner-layer dial is evenly divided into 24 parts, which represents 24 hours a day, wherein the display mode of 24 hours a day can be selected in various ways, for example, fig. 1 is displayed according to a digital + twelve-hour cross mode, namely son, 1, ugly, 3, tiger, 5, Mao, 7, Chen, 9, Yi, 11, noon, 13, No, 15, Shen, 17, unitary, 19, xu, 21, Heli and 23, and other modes can be selected, such as displaying only numbers, namely displaying 1-24 in sequence, which is not limited herein.

FIG. 3 illustratively shows a two-level rendering schematic of the timing display assembly disclosed herein. The secondary presentation graph is obtained by triggering on the primary presentation graph, and optionally, the user can jump from the primary presentation graph to the secondary presentation graph by clicking the trigger, such as clicking a highlighted date on the outer dial plate, or entering a timing display modulation interface to select and display the secondary presentation graph; or automatically displayed through a predetermined trigger, such as entering a set event according to a time flow. Alternatively, the bottom color of the center of the dial plate can be set according to the selection of the user, can be automatically set by detecting the current season, day and night, weather, work attendance, holidays, future time events or the current emotion of the user, and can be automatically set according to the matching of the wearing clothes of the user. The secondary presentation graph is mainly used for presenting event attributes, various main events can be set according to needs, including events which are happening, have happened and are about to happen in a certain time vector and attributes representing the events, the events which are happening, have happened and are about to happen in the certain time vector are marked by event time intervals, event bars are displayed in a highlighted mode, and different colors are set for the event bars. The event time interval is an independent period of time vector, the event time interval is provided with a starting mark, a stopping mark and a middle mark, the starting mark, the stopping mark and the middle mark have an adjusting function, the starting mark, the stopping mark and the middle mark are moved to realize the prominent representation of compression and stretching of the event time interval, and the event time interval is a mode that the independent period of time vector is separated from the original time vector to prominently present the attribute for identifying the event and the time vector. In addition, in order to distinguish the first-level presentation graph and the second-level presentation graph, the second-level presentation graph can be displayed through different colors, in order to distinguish display time conveniently and improve the attractiveness of the display assembly, the data modulus of each equal part in each dial plate is displayed through different colors, or the lapse of time can be expressed by using gradient colors. Similarly, distinguishable graphical indicia of different shapes are provided within each timing modulus of the secondary presentation graph, the graphical indicia being arranged in different display modes according to different dial modulus attributes, but all circulating along the dial over time, e.g., as shown in fig. 3, dots are provided in the inner dial, the dots circulating through each primary event in a clockwise flow. For example, a dial indicating the day time is divided into four main events, namely early time, working time, late time and rest time, according to normal living habits, the fourth dial is generally divided into 9 fourth to 9 sixth as early time, 9 fifth to unitary as working time, unitary to sixth as late time, and sixth to fourth as rest time, and different main events are displayed in different colors.

FIG. 4 illustratively shows a three-level rendering schematic of the timing display assembly disclosed herein. The third-level rendering graph is obtained by triggering on the second-level rendering graph, and optionally, the jump from the first-level rendering graph to the second-level rendering graph can be triggered according to clicking of a user, for example, a certain event on the inner-layer dial is clicked to perform sub-event setting, or the user enters a timing display modulation interface to select and display the third-level rendering graph; or automatically displayed through a predetermined trigger, such as entering a set event according to a time flow. And setting various seed events as required in various time periods of the three-level rendering graph, such as setting the getting-up time, the breakfast time and the like in the early time, and setting the meeting time in the working time. And setting other colors for distinguishing the sub-event from the main event, and setting a corresponding image identification progress bar for the sub-event, wherein the image identification progress bar automatically disappears after the sub-event is finished.

FIG. 5 schematically illustrates a four-level rendering of the timing display assembly disclosed herein. The four-level presentation diagram comprises a first presentation graph, a second presentation graph and a third presentation graph. Similarly, a four-level rendering schematic is triggered on a three-level rendering schematic. The first display graph is used for amplifying the three-level presentation graph, the event attribute can be obtained by amplifying the event attribute by clicking the corresponding event on the three-level presentation graph by a user, and optionally, the dial size is correspondingly reduced after the event attribute is amplified in consideration of the display size; the second display graph is used for independently amplifying the three-level presentation graphs and can be obtained by clicking corresponding events on the three-level presentation graphs by a user, the second display graph only independently displays the attributes of the amplified events, and the dial plate disappears; the third display graph is used for stretching/compressing the event and can be realized by dragging the edge of the event by the user. For example, if the initial meeting time is 9 to 11 points, but the meeting needs to be delayed to 12 points for completion, the end of the meeting event can be changed to 12 points by stretching the meeting event bar. It should be noted that the three display graphs are only a few examples of event displays and are not limited herein.

(2) Control assembly

The control assembly includes a time control unit and an event control unit.

The time control unit is used for presenting the initial state of the timing display assembly when the control assembly program is started, displaying the multistage time modulus containing different preset number of different stage time units by utilizing the multilayer dial plate, and representing the time lapse by different graphic identification delay time vector circulation in different time moduli.

The event control unit is used for presenting the presentation state of the corresponding event of the timing display component according to the system preset program trigger or the man-machine interaction trigger after receiving the system preset program trigger or the man-machine interaction trigger, wherein the presentation state comprises the event which is occurring, has occurred and is about to occur and the attribute representing the event, the event which is occurring, has occurred and is about to occur in a certain time vector is marked by an event time interval, and the attribute and the meaning representing the event are expressed by the stretching and the compression of the event time interval. Wherein, the event control unit specifically includes: a system program trigger control module and a man-machine interaction trigger control module.

Specifically, the system program trigger control module is used for automatically displaying a main event display panel of a plurality of preset events which are divided according to time on the timing display component in advance when the program monitors that the current time enters the event display time; the human-computer interaction triggering control module is specifically used for: if the control component receives the program that the user sets the main event on the timing display component, the initial state is updated to the main event display panel on the timing display component. For example, the program user updates the initial state on the time keeping display assembly to the main event display panel when clicking a highlighted location on the dial (e.g., the time of day indicated on the outer dial) or a mode setting button. If the control component receives that a program user sets the sub-event on the display modulation interface, displaying a sub-event progress bar and sub-event attributes on the timing display component; for example, if a conference sub-event is added to the working time main event, the start time and the end time of the conference are set in the display modulation interface, and the next-level event element of the sub-event may also be set, for example, the progress of each conference content of the conference is set under the set conference event. If the control component receives the setting of the sub-event progress bar on the main event display panel by the program user, the stretching and the compression of the event time interval are displayed on the timing display component to represent the attribute and the meaning of the event. For example, stretching on a set meeting sub-event, the extension of the meeting time can be expressed by extending the meeting sub-event progress bar at the dial. And if the control component receives the click operation of the program user on the sub-event progress bar, the sub-event and the event element thereof are displayed independently. For example, the sub-event and the event element thereof may be enlarged by clicking the sub-event progress bar, or may be displayed separately by double clicking the sub-event progress bar. If the control component receives the synchronous scheduling operation of the program user on the event, the scheduled event is synchronized to other related persons or related devices. For example, if the program user needs to issue a meeting schedule in a work group, the program user sends the meeting schedule to other colleagues in the work group for meeting notification after the meeting setting is completed.

When the control component monitors that the sub-event progress bar reaches a certain set point, the control component also reminds the user through various reminding modes, including actions such as prompting, reminding, emphasizing and the like, for example, reminding by flash or highlighting or voice when the end, the beginning or the important moment is close. For example, when the meeting is finished at the 10 th point, the user is reminded that the meeting is about to be finished in a vibration mode at the set 9 th point and 50 th point; and after the control assembly receives the reminding instruction sent by other related devices, the user can be reminded in various reminding modes.

Further, the control component provided by the application further comprises an event management module, wherein the event management module is used for reading the address book, establishing a participant group according to the selected event participants to carry out event organization management, recording and storing event information, and dissembling the group after the event is ended.

In the embodiment of the application, the control component further comprises a voice management module, which starts a voice recognition function to perform voice recognition, and realizes the functions of setting, adjusting, transmitting and the like of events through voice, specifically, the attribute of the event to be set is determined by recognizing the voice of a user, the corresponding event is displayed in the timing display component, the event is updated according to the identified event information to be adjusted, and the set or adjusted event can be transmitted to other related devices and the like.

Example two

As shown in fig. 6, a timing display method according to a second embodiment of the present application includes:

and step 610, starting a control component program, presenting an initial state of the timing display component, displaying a multi-stage time modulus containing different preset quantities of different stage time units by using a multi-layer dial, and representing the time lapse by using different graphic identification delay time vector streams in the different time moduli.

The timing display system that this application provided can be independently start when the program carrier (like cell-phone, computer, intelligent wrist-watch etc.) starts, also can set up to the APP form, starts when the user clicks according to the user's needs, and the timing display subassembly shows on the carrier interface after the program starts, and control assembly shows the regulation and control of timing subassembly as the program backstage. After the program is started, the timing display component enters an initial state, namely, a multi-level time modulus containing different preset number of different level time units is displayed by utilizing a multi-layer dial plate, and the time is represented by different graphic identification delay time vector streams in different time moduli.

Step 620, the control component receives a system preset program trigger or a man-machine interaction trigger, and presents the presentation state of the event corresponding to the timing display component according to the system preset program trigger or the man-machine interaction trigger, wherein the presentation state comprises the event which is occurring, has occurred and is about to occur in a certain time vector and the attribute representing the event, the event which is occurring, has occurred and is about to occur in the certain time vector is identified by an event time interval, and the attribute and the meaning representing the event are extended and compressed by the event time interval.

The timing display system provided by the application also comprises event setting besides time display, the event setting can be triggered by a system preset program, for example, the program is divided into multiple preset events according to the time on the timing display assembly in advance, and when the program monitors that the current time enters the event display time, the main event display panel is automatically displayed. For example, taking the fourth to the fifth of the day dial as an early time event, taking the fifth to the sixth of the day as a working time event, taking the sixth to the sixth of the day as a late time event, taking the sixth to the fourth of the day as a rest time event, and automatically displaying the main event display panel and displaying different events by different colors when the current time is monitored to enter the preset working time.

In addition, the event setting can also be triggered according to human-computer interaction, wherein the human-computer interaction comprises the triggering operation of a program user and the communication instruction of a program association device/associated personnel; several forms of human-home interaction triggering are illustratively shown below:

if the control module receives the main event setting from the program user on the timing display module, the initial state is updated to the main event display panel on the timing display module. For example, the program user updates the initial state on the time keeping display assembly to the main event display panel when clicking a highlighted location on the dial (e.g., the time of day indicated on the outer dial) or a mode setting button.

If the control component receives the setting of the sub-event on the display modulation interface by the program user, displaying a sub-event progress bar and the sub-event attribute on the timing display component; for example, if a conference sub-event is added to the working time main event, the start time and the end time of the conference are set in the display modulation interface, and the next-level event element of the sub-event may also be set, for example, the progress of each conference content of the conference is set under the set conference event.

If the control component receives the setting of the sub-event progress bar on the main event display panel by the program user, the stretching and the compression of the event time interval are displayed on the timing display component to express the attribute and the meaning of the event. For example, stretching on a set meeting sub-event, the extension of the meeting time can be expressed by extending the meeting sub-event at the dial.

And fourthly, if the control assembly receives the click operation of the program user on the sub-event progress bar, the sub-event and the event element thereof are displayed independently. For example, the sub-event and the event element thereof may be enlarged by clicking the sub-event progress bar, or may be displayed separately by double clicking the sub-event progress bar.

If the control component receives the synchronous scheduling operation of the program user to the event, the scheduled event is synchronized to other related persons or related devices. For example, if a program user needs to issue a meeting schedule in a certain work group, the meeting schedule is sent to other colleagues in the work group for meeting notification after meeting setting is completed, wherein the control component has an event management function, can read an address book, establish a participant group according to a selected event participant for event organization management, record and store event information, and dismiss the group after the event is completed. In addition, when the control component monitors that the sub-event progress bar reaches a certain set point, the control component also reminds the user through various reminding modes, including actions such as prompting, reminding and emphasizing, and the like, such as reminding by flash or highlighting or voice when the end, the beginning or the important moment is approached. For example, when the meeting is finished at 10 o ' clock, the user is reminded of the meeting to be finished in a vibration mode at 9 o ' clock and 50 o ' clock which are set; in addition, the control component can remind the user in various reminding modes after receiving reminding instructions sent by other related devices.

The above-mentioned embodiments, objects, technical solutions and advantages of the present invention are further described in detail, it should be understood that the above-mentioned embodiments are only exemplary embodiments of the present invention, and are not intended to limit the scope of the present invention, and any modifications, equivalent substitutions, improvements and the like made on the basis of the technical solutions of the present invention should be included in the scope of the present invention.

Claims (15)

1. A timing display system is characterized by comprising a timing display component and a control component;

the timing display assembly is composed of a plurality of layers of nested annular closed dials, each layer of dial indicates different time measurement, each layer of dial displays a time modulus containing a preset number of preset time patterns, and the time modulus of each layer of dial is divided into a preset number of time units through scales; distinguishable graphic marks in different shapes are arranged in each timing modulus, and the graphic marks are arranged in different display modes according to the modulus attributes of different dials and flow along the dials along the lapse of time;

the control assembly comprises a time control unit and an event control unit; the time control unit is used for presenting the initial state of the timing display component when the control component program is started, displaying the multistage time modulus containing different preset number and different stage time units by utilizing at least one layer of dial plate, and representing the time lapse by delaying the time vector flow through different graphic marks in different time moduli; the event control unit is used for presenting the presentation state of the corresponding event of the timing display component according to the system preset program trigger or the man-machine interaction trigger after receiving the system preset program trigger or the man-machine interaction trigger, wherein the presentation state comprises the event which is occurring, has occurred and is about to occur and the attribute representing the event, the event which is occurring, has occurred and is about to occur in a certain time vector is marked by an event time interval, and the attribute and the meaning representing the event are expressed by the stretching and the compression of the event time interval.

2. The timing display system of claim 1, wherein each dial time vector of the timing display assembly is used to represent one or more tangible or intangible reference lines of time running direction, period total and period component, the time vectors include year time vector, month time vector, week time vector, day time vector, hour time vector, second time vector or other self-defined time vectors, the time vectors are coincident or non-coincident, and the plurality of dials are selected from the plurality of modes for multi-layer dial nesting arrangement according to requirements.

3. The time display system of claim 2, wherein the graphic mark has different display modes according to different dial modulus attributes, the variation along the dial in time scale unit along the time vector direction represents the current time and the lapse of time, the graphic mark is composed of a static or dynamic picture or visual element with a certain shape and its display content, and the relative position relationship between the time mark and the time scale is used to mark the current time and the progress of the event.

4. A time display system according to claim 3, wherein the graphical indicia vary in a clockwise or counterclockwise direction along the dial.

5. The timing display system of claim 3, wherein the time scale is used for identifying movement variation of the time marker, is used for representing time in combination with the time marker, and comprises year, month, day, week, hour, minute and second scales, wherein the scales are overlapped or not overlapped, and is also used for realizing compression and stretching of event time intervals through adjustment of movement variation combination and the like, and further representing different attribute connotations of time.

6. The time display system of claim 4, wherein the time scale is a uniform scale or a non-uniform scale.

7. The timing display system of claim 5, wherein the event period is a single period vector, the event period has any of start, end and middle marks, the start, end and middle marks have adjustment functions, the start, end and middle marks are moved to achieve highlight of compression and stretching of the event period, and the event period highlights attributes identifying the event and the time vector in a manner that the single period vector deviates from the original time vector.

8. The timing display system according to claim 1, wherein the event control unit specifically includes: the system comprises a system program trigger control module and a human-computer interaction trigger control module;

the system program trigger control module is used for automatically displaying a main event display panel of a plurality of preset events which are divided according to the time on the timing display component in advance when the program monitors that the current time enters the event display time; the human-computer interaction triggering control module is specifically used for: if the control component receives that the program user sets the main event on the timing display component, the initial state is updated to the main event display panel on the timing display component; if the control component receives the setting of the sub-event on the display modulation interface by the program user, displaying a sub-event progress bar and sub-event attributes on the timing display component; if the control component receives the setting of the sub-event progress bar on the main event display panel by the program user, the stretching and the compression of the event time interval are displayed on the timing display component to represent the attribute and the meaning of the event; if the control component receives the click operation of the program user on the sub-event progress bar, the sub-event and the event element thereof are displayed independently; if the control component receives the synchronous scheduling operation of the program user on the event, the scheduled event is synchronized to other related persons or related devices.

9. The timing display system of claim 8, wherein when the control module monitors that the sub-event progress bar reaches a set point, the control module further comprises alerting the user by various means.

10. The timing display system of claim 8, wherein the control component reminds the user in various reminding manners after receiving reminding instructions sent by other related devices.

11. The time-keeping display system of claim 8, wherein the control component further comprises an event management module for reading the address book, creating a group of participants for event organization management based on the selected event participants, recording and storing event information, and dismissing the group after the event is completed.

12. The timing display system of claim 1, wherein the timing display system can be started autonomously when a program carrier is started, or can be set to be in an APP form, and is started when a user clicks according to user needs, the timing display component is displayed on a carrier interface after the program is started, and the control component is used as a program background to perform display timing component regulation and control.

13. A timing display method, comprising:

the control component program is started, the initial state of the timing display component is presented, the multistage time modulus containing different preset quantities of different stage time units is displayed by utilizing at least one layer of dial plate, and the time lapse is represented by different graphic identification delay time vector flows in different time moduli;

the control component receives system preset program triggering or man-machine interaction triggering, and presents the presentation state of the event corresponding to the timing display component according to the system preset program triggering or man-machine interaction triggering, wherein the presentation state comprises the events which are occurring, have occurred and are about to occur in a certain time vector and the attribute representing the event, the events which are occurring, have occurred and are about to occur in the certain time vector are marked by event time intervals, and the attribute representing the event and the meaning are expressed by stretching and compressing the event time intervals.

14. The time display method of claim 13, wherein the program is divided into a plurality of preset events according to the time on the time display module in advance, and the main event display panel is automatically displayed when the program monitors that the current time enters the event display time.

15. The time-counting display method according to claim 13, wherein the displaying of the presentation status of the event corresponding to the time-counting display component according to the human-computer interaction trigger specifically comprises:

if the control component receives the main event setting of the program user on the timing display component, the initial state is updated to a main event display panel on the timing display component;

if the control component receives the setting of the sub-event on the display modulation interface by the program user, displaying a sub-event progress bar and the sub-event attribute on the timing display component;

if the control component receives the setting of the sub-event progress bar on the main event display panel by the program user, the stretching and the compression of the event time interval are displayed on the timing display component to express the attribute and the meaning of the event;

if the control component receives the click operation of the program user on the sub-event progress bar, the sub-event and the event element thereof are displayed independently;

if the control component receives the synchronous scheduling operation of the program user to the event, the scheduled event is synchronized to other related persons or related devices.

Images